基于视网膜启发模型的多传感器遥感图像融合

H. Ghassemian
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引用次数: 2

摘要

遥感系统在电磁波谱的不同部分观测像素。这些系统是在许多相互竞争的限制下设计的,其中最重要的是在空间分辨率和光谱分辨率之间进行权衡。为了收集更多的光子并保持图像信噪比,多光谱传感器比全色传感器具有更大的像素。通过适当的算法,可以将这些数据结合起来,产生具有两者最佳特征的图像,即高空间和高光谱分辨率。这个过程被称为一种数据融合。目前在遥感领域得到广泛应用的有色调饱和度和强度(HSI)技术、主成分分析(PCA)技术和Brovey变换技术。近年来,小波变换被用于多分辨率图像的合并。通常,这些方法的目的是创建增强可解释性的复合图像,但是,这些方法会扭曲多光谱图像的光谱特征。提出了一种基于视觉通道图像分解的多分辨率数据融合方案。本文介绍了视网膜启发图像分析模型的一般问题,以及该模型在多光谱图像融合中的应用。通过定性和定量的比较来评价该方法与其他方法的光谱和空间特征性能。视觉分析和统计分析表明,该算法显著提高了融合质量;与IHS、PCA、Brovey和离散小波变换(DWT)等融合方法进行了比较。该方法与其他方法相比,不需要对图像进行重新采样,可以在全色像素和MSS像素之间的任何宽高比下执行。
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Multi-sensor remote sensing image fusion based on Retina-Inspired model
Remote sensing systems observe pixels in different portions of electromagnetic spectrum. These systems are designed within many competing constraints, among the most important being the trade off between the spatial resolution and the spectral resolution. To collect more photons and maintain image SNR, the multispectral sensors have a larger pixel compared to panchromatic sensors. With appropriate algorithms it is possible to combine these data and produce imagery with the best characteristics of both, namely high spatial and high spectral resolution. This process is known as a kind of data fusion. Some widely performed in the remote sensing community are HSI (hue-saturation and intensity) technique, PCA (principal component analyses) technique, and the Brovey transform technique. Recently, the Wavelet transform has been used for merging multi-resolution images. Normally, the objective of these procedures is to create a composite image of enhanced interpretability, but, those methods can distort the spectral characteristics of the multispectral images. This paper presents a multi-resolution data fusion scheme, based on visual channels image decomposition. This paper introduces a general issue of Retina-Inspired image analysis model, and application of the model in multispectral image fusion. A qualitative and quantitative comparison used to evaluate the spectral and spatial features performance of the proposed method with the others. Visual and statistical analyses show that the proposed algorithm significantly improves the fusion quality; compared to fusion methods including, IHS, PCA, Brovey, and discrete Wavelet transform (DWT). In this method, there is no need to resample images, which is an advantage over the other methods, it can perform in any aspect ratio between the panchromatic and MSS pixels.
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